Biblioteca Digital

Results of a sediment profile and water analyses from Lake Hancza in northeastern Poland

**Autoria(s):** Lauterbach, Stefan; Brauer, Achim; Andersen, Nils; Danielopol, Dan L; Dulski, Peter; Hüls, Matthias; Milecka, Krystyna; Namiotko, Tadeusz; Plessen, Birgit; von Grafenstein, Ulrich; DecLakes participants
Cobertura	MEDIAN LATITUDE: 54.252651 * MEDIAN LONGITUDE: 22.731475 * SOUTH-BOUND LATITUDE: 50.062000 * WEST-BOUND LONGITUDE: 18.900000 * NORTH-BOUND LATITUDE: 56.950000 * EAST-BOUND LONGITUDE: 24.100000 * DATE/TIME START: 1975-01-01T00:00:00 * DATE/TIME END: 2005-09-03T00:00:00
Data(s)	18/07/2010
Resumo	We investigated the sedimentary record of Lake Hancza (northeastern Poland) using a multi-proxy approach, focusing on early to mid-Holocene climatic and environmental changes. AMS 14C dating of terrestrial macrofossils and sedimentation rate estimates from occasional varve thickness measurements were used to establish a chronology. The onset of the Holocene at c. 11600 cal. a BP is marked by the decline of Lateglacial shrub vegetation and a shift from clastic-detrital deposition to an autochthonous sedimentation dominated by biochemical calcite precipitation. Between 10000 and 9000 cal. a BP, a further environmental and climatic improvement is indicated by the spread of deciduous forests, an increase in lake organic matter and a 1.7% rise in the oxygen isotope ratios of both endogenic calcite and ostracod valves. Rising d18O values were probably caused by a combination of hydrological and climatic factors. The persistence of relatively cold and dry climate conditions in northeastern Poland during the first one and a half millennia of the Holocene could be related to a regional eastern European atmospheric circulation pattern. Prevailing anticyclonic circulation linked to a high-pressure cell above the retreating Scandinavian Ice Sheet might have blocked the influence of warm and moist Westerlies and attenuated the early Holocene climatic amelioration in the Lake Hancza region until the final decay of the ice sheet.
Formato	application/zip, 11 datasets
Identificador	https://doi.pangaea.de/10.1594/PANGAEA.743125 doi:10.1594/PANGAEA.743125
Idioma(s)	en
Publicador	PANGAEA
Relação	Lauterbach, Stefan; Brauer, Achim; Andersen, Nils; Danielopol, Dan L; Dulski, Peter; Hüls, Matthias; Milecka, Krystyna; Namiotko, Tadeusz; Plessen, Birgit; von Grafenstein, Ulrich; Participants DECLAKES (2010): Supplementary material to Lauterbach et al. (2010): Multi-proxy evidence for early to mid-Holocene environmental and climatic changes in northeastern Poland. Deutsches GeoForschungsZentrum GFZ, doi:10.1594/GFZ.SDDB.1321
Direitos	CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted
Fonte	Supplement to: Lauterbach, Stefan; Brauer, Achim; Andersen, Nils; Danielopol, Dan L; Dulski, Peter; Hüls, Matthias; Milecka, Krystyna; Namiotko, Tadeusz; Plessen, Birgit; von Grafenstein, Ulrich; DecLakes participants (2010): Multi-proxy evidence for early to mid-Holocene environmental and climatic changes in northeastern Poland. Boreas, 40(1), 57-72, doi:10.1111/j.1502-3885.2010.00159.x
Palavras-Chave	#1 sigma; Abi; Abies; Ace; Acer; Aes.c; Aesculus hippocastanum; Age; AGE; Age, 14C AMS; Age, calculated calendar years; Age, calibrated; Age, comment; Age, dated; Age, dated material; Age, dated standard deviation; Age, maximum/old; Age, minimum/young; Age, standard deviation; Age dated; Age max; Age min; Age model; Age std dev; Al; Aln; Alnus; Aluminium; Anthemis-type; Ant-T; Apiaceae; Apiae; Apl; Area; Area/locality; Arenaria-type; Are-T; Arm; Armeria; Art; Artemisia; Asplenium; Aster-type; AsteTubu; Ast-T; Bet; Bet.n-T; Betula; Betula nana-type; Bot; Bot.l; Bot.n; Botrychium; Botrychium lunaria; Botrychium-type; Botryococcus; Botryococcus neglectus; Bot-T; Braae; Brassicaceae; Bup; Bupleurum; C. candida; C. lacustris; C. neglecta; Ca; CaCO3; cal. ka BP; cal. ka BP, 2 sigma range; Cal.v; Calcium; Calcium carbonate; Calluna vulgaris; Cam; Campanula; Candona candida; Candona neglecta; Cannabis-type; Can-T; Car; Carbon, organic, total; Cardamine; Carex-type; Carpinus; Car-T; Caryophyllaceae; Cen.c; Centaurea cyanus; Cerastium-type; Cerealia; Cer-T; Charcoal; Cheae; Chenopod; Chenopodiaceae; Cichorioideae; Cicoid; Cir; Cirsium; Color, L, lightness; Comm; Comment; Compositae Tubuliflorae; Cor; Corylus; Counting, palynology; Cphae; Crl; Cypae; Cyperaceae; Cytherissa lacustris; d13C cal; d13C Corg; d13C std dev; d18O cal; d18O H2O; Date/Time; DATE/TIME; Date/time end; Dated material; dD; delta 13C, calcite; delta 13C, organic carbon; delta 13C, standard deviation; delta 18O, endogenic calcite; delta 18O, water; delta Deuterium; Depth; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; DEPTH, water; Depth bot; Depth top; Depth water; Drp.f-m; Dry.o; Dry.t; Dryas octopetala; Dryopteris filix-mas; Dryopteris thelypteris; EAGLE III XL µ-XRF spectrometer; endogenic calcite; Eph.d; Eph.f; Ephedra distachya; Ephedra fragilis; Equ; Equisetum; Eriae; Ericaceae; F. protzi; Fabaceae; Fabae; Fabaeformiscandona protzi; Fag; Fagopyrum; Fagus; Fgy; Filipendula; Flp; Frangula; Fraxinus; Frg; Frx; Galium-type; Gal-T; Gen; Gentiana; Ger; Geranium; Geum-type; Geu-T; Hed.h; Hedera helix; Hel; Helianthemum; Hepa; Hepatica; Her; Heracleum; Hip.r; Hippophae rhamnoides; Hum; Hum/Can; Humulus; Humulus/Cannabis; Hyp; Hypericum; Ine; Iso.e; Isoetes echinospora; Isotope ratio mass spectrometry; Jasione-type; Jas-T; JH05; Jug; Juglans; Jun; Juniperus; L; Label; Lake Hancza, Suwazki-Augustów Lake District, northeastern Poland; Lamae; Lamiaceae; Lar; Larix; Latitude; LATITUDE; Led.p; Ledum palustre; Limnocyth; Limnocytherinae; Longitude; LONGITUDE; Lot-T; Lotus-type; Lyc.a; Lyc.c; Lycopodium annotinum; Lycopodium clavatum; Lys; Lysimachia; Lyt; Lythrum; Mass; Mel; Melampyrum; Men-T; Mentha-type; Mer; Mercurialis; Myo.v; Myriophyllum verticillatum; NAP; Non arboreal pollen; Nym; Nymphaea; of calcification; of carbon; Ostrac; Ostrac d13C; Ostrac d18O; Ostrac lit; Ostracoda, d13C; Ostracoda, d18O; Ostracoda, littoral species; Ostracoda per unit mass; OXCAL v4.1 Ramsey 2001, IntCal04 Reimer et al. 2004; P; P. campanulatum; PCUWI; Pdi.d; Pdi.i; Ped.b; Ped.b.vb; Ped.b.vc; Ped.b.vl; Ped.k; Ped.n; Pediastrum angulosum; Pediastrum boryanum; Pediastrum boryanum var. brevicorne; Pediastrum boryanum var. cornutum; Pediastrum boryanum var. longicorne; Pediastrum campanulatum; Pediastrum duplex; Pediastrum integrum; Pediastrum kawraiskyi; Phosphorus; Pic; Picea; Pin; Pinus; Piston corer (Uwitec); Pla.l; Pla.m/m; Plantago lanceolata; Plantago major/media; Poac; Poaceae; Pocae; Pol.b-T; Pol.i; Pol.sp; Polygonum aviculare; Polygonum bistorta-type; Polygonum sp.; Polypodiaceae; Polypodium vulgare; Pop; Populus; Pot; Potamogeton; Potentilla-type; Ppd.v; Prn-T; Prunus-type; Ptd.a; Pteridium aquilinum; Pti-T; Que; Quercus; Ran.a; Ranae; Ran-T; Ranunculaceae; Ranunculus acris; Ranunculus-type; Rhy; Rhynchospora; Rosaceae; Rosae; Rum.a; Rum.a.a; Rumex acetosa; Rumex acetosa/R. acetosella; S; Sal; Sal.h; Salix; Salix herbacea; Sam; Sambucus; Sample code/label; Sax; Saxifraga; Sce; Scenedesmus; Schoenus-type; Sch-T; Scl.a; Scleranthus annuus; Sco-T; Scrophularia-type; Sec; Secale; Sel.s; Selaginella selaginoides; Si; sigma; Silene-type; Silicon; Sil-T; Sinapis-type; Sin-T; Sor.a; Sorbus aucuparia; Sparganium-type; Spa-T; Spectrophotometer Minolta CM-2500d; Sph; Sphagnum; Sulfur; Temperature, technical; Tet; Tetraedron; Tha; Thalictrum; Til; Tilia; TOC; Tri.r; Trifolium repens; Trifolium-type; Tri-T; Triticum-type; Trt-T; T tech; Typ.l; Typha latifolia; Ulm; Ulmus; Urt; Urtica; Vaccinium-type; Vac-T; Val; Valeriana; Vib; Viburnum; Vicia-type; Vic-T; Vis; Viscum
Tipo	Dataset

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